diff_of_means ratio_of_sd monthly_amplitude_ratio_of_means ks_mean_on_coarse_res_with_extremes qqplot_mae acf_mae extremogram_mae
xgboost.mri_esm2_0.ssp370 -1.05% 0.956 0.881 0.262 5.197 0.056 0.038
nv.cesm2.ssp245 2.27% 0.916 0.907 0.332 8.147 0.044 0.040
nv.cesm2.ssp585 2.47% 0.920 0.951 0.436 7.376 0.037 0.036
xgboost.mri_esm2_0.ssp434 -2.87% 0.957 0.873 0.248 6.720 0.074 0.045
nv.cesm2.ssp370 3.38% 0.911 0.923 0.250 8.558 0.038 0.044
cnn.cesm2.ssp245 3.70% 0.908 0.902 0.215 10.155 0.029 0.037
cnn.cesm2.ssp585 4.05% 0.894 0.891 0.288 11.011 0.032 0.044
xgboost.mri_esm2_0.ssp245 -4.18% 0.959 0.843 0.231 9.389 0.085 0.041
nv.mri_esm2_0.ssp370 -4.53% 1.000 0.916 0.282 10.364 0.111 0.033
cnn.cesm2.ssp370 4.54% 0.891 0.867 0.250 11.555 0.035 0.037
xgboost.cesm2.ssp245 4.58% 0.908 0.880 0.154 11.010 0.015 0.030
xgboost.cesm2.ssp585 5.03% 0.894 0.863 0.192 11.845 0.019 0.035
nv.mri_esm2_0.ssp434 -5.80% 0.995 0.903 0.434 12.612 0.124 0.034
xgboost.cesm2.ssp370 5.80% 0.894 0.856 0.243 13.069 0.019 0.039
nv.mri_esm2_0.ssp245 -7.08% 0.993 0.873 0.282 14.921 0.129 0.036
nv.ec_earth3.ssp434 7.28% 0.869 0.891 0.222 14.905 0.047 0.051
cnn.ec_earth3.ssp434 10.02% 0.837 0.806 0.179 20.838 0.041 0.036
cnn.mri_esm2_0.ssp370 -10.40% 1.032 0.862 0.490 20.696 0.125 0.035
lstm.cesm2.ssp585 10.65% 0.804 0.707 0.488 24.989 0.081 0.044
lstm.mri_esm2_0.ssp245 10.78% 0.896 0.612 0.520 23.982 0.169 0.053
lstm.cesm2.ssp245 10.94% 0.817 0.722 0.453 24.860 0.077 0.054
cnn.mri_esm2_0.ssp434 -11.29% 1.034 0.869 0.636 22.475 0.132 0.049
lstm.cesm2.ssp370 11.33% 0.784 0.678 0.429 26.774 0.079 0.048
lstm.mri_esm2_0.ssp434 11.56% 0.878 0.616 0.769 25.549 0.164 0.075
cnn.mri_esm2_0.ssp245 -12.16% 1.044 0.819 0.458 24.209 0.148 0.042
xgboost.ec_earth3.ssp434 12.41% 0.880 0.862 0.192 24.715 0.018 0.035
lstm.mri_esm2_0.ssp370 13.85% 0.871 0.612 0.555 29.294 0.150 0.047
lstm.ec_earth3.ssp434 18.96% 0.704 0.638 0.423 39.666 0.056 0.062

Time series of the first days

Distribution of daily values by month

QQ Plot

Distribution of the undownscaled value on days with estimated extremes values.

On the x-axis we have the daily mean (standardized). It says Undownscaled value, but is the daily mean after the downscaling. A good idea is to plot the original undownscaled value.

The purpose of this plot is to illustrate the distribution of P(undownscaled value | we predicted an extreme). This is useful because it reveals how much information we can recover concerning extreme events. If the distribution is skewed to the right, it suggests that we’re predicting extreme values only when extreme values have already occurred. Conversely, if the lower tail of the distribution resembles the reanalysis data, it indicates that we can capture short-duration extremes (e.g., brief periods of heavy rainfall, such as an intense downpour lasting an hour before stopping).

Autocorrelogram

Extremogram